Scientific Research and Essays

  • Abbreviation: Sci. Res. Essays
  • Language: English
  • ISSN: 1992-2248
  • DOI: 10.5897/SRE
  • Start Year: 2006
  • Published Articles: 2768

Full Length Research Paper

Sorption mechanism of some heavy metal ions from aqueous waste solution by polyacrylamide ferric antimonate

El-Naggar, I. M.
  • El-Naggar, I. M.
  • Atomic Energy Authority, Hot Laboratories Center, P. No. 13759, Cairo, Egypt.
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Mowafy, E. A.
  • Mowafy, E. A.
  • Atomic Energy Authority, Hot Laboratories Center, P. No. 13759, Cairo, Egypt.
  • Google Scholar
El-Aryan, Y. F.
  • El-Aryan, Y. F.
  • Atomic Energy Authority, Hot Laboratories Center, P. No. 13759, Cairo, Egypt.
  • Google Scholar
Abd El-Wahed, M. G.
  • Abd El-Wahed, M. G.
  • Chemistry Department, Faculty of Science, Zagazig University, Egypt.
  • Google Scholar


  •  Received: 30 December 2013
  •  Accepted: 12 March 2014
  •  Published: 30 March 2014

References

Abou-Mesalam MM, El-Naggar IM (2003). Diffusion mechanism of Cs+, Zn2+ and Eu3+ ions in the particles of zirconium titanate ion exchanger using radioactive tracers. Eng. Aspects. 215:205.
Crossref
 
El-Naggar IM, Mowafy EA, Abdel-Galil EA (2007). Diffusion mechanism of certain fission products in the particles of silico(IV)titanate. Coll. Surf. A: Physicochem. Eng. Aspects 307:77.
Crossref
 
El-Naggar IM, Mowafy EA, El-Kenany WM (2010). Kinetics and adsorption isotherm of some heavy metal ions from aqueous waste solutions by crystalline antimonic acid. Arab. J. Nucl. Sci. Appl. 43(2):97-106.
 
El-Naggar IM, Zakaria ES, Ali IM, Khalil M, El-Shahat MF (2012). Kinetic modeling analysis for the removal of cesium ions from aqueous solutions using polyanilinetitanotungstate. Arabian J. Chem. 5:109-119.
Crossref
 
Freundlich HMF (1906). Uber die adsorption in losungen. Z. Phys. Chem. 57:385.
 
Jaycock MJ, Parfitt GD (1981). Chemistry of Interfaces. Ellis Horwood Ltd., Onichester, P. 625.
 
Jiang J-Q, Cooper C, Ouki S (2002). Comparison of modified montmorillonite adsorbents — Part I: Preparation, characterization and phenol adsorption. Chemosphere 47:711.
Crossref
 
Kadirvelu K, Namasivayam C (2000). Agricultural by-products as metal adsorbents: Sorption of lead (II) from aqueous solutions onto coir-pith carbon. Environ. Technol. 21:1091.
Crossref
 
Kadirvelu K, Namasivayam C (2000). Agricultural by-products as metal adsorbents: Sorption of lead (II) from aqueous solutions onto coir-pith carbon. Environ. Technol. 21:1091.
Crossref
 
Khan AA, Alam MM, Inamuddin (2004). Preparation, characterization and analytical applications of a new and novel electrically conducting fibrous type polymeric–inorganic composite material: PolypyrroleTh(IV) phosphate used as a cation-exchanger and Pb(II) ion-selective membrane electrode. Mater. Res. Bull. 40:289.
Crossref
 
Khan AA, Alam MM, Inamuddin, Mohammad F (2004). Electrical conductivity and ion-exchange kinetic studies of a crystalline type 'organic–inorganic' cation-exchange material: Polypyrrole/polyantimonic acid composite system (Sb2O5) (–C4H2NH–) • nH2O. Electroanal. Chem. 572:67.
Crossref
 
Khan AA, Alam MM, Mohammad F (2003). Ion-exchange kinetics and electrical conductivity studies of polyanilineSn(IV) tungstoarsenate; (SnO2)(WO3)(As2O5)4(-C6H5-NH-)2•nH2O: A new semi-crystalline 'polymeric–inorganic' composite cation-exchange material. Electrochim. Acta, 48 (2003) 2463.
Crossref
 
Langmuir I (1916). The adsorption of gases on plansurfaces of glass, mica and platinum. J. Am. Chem. Soc. 40:2221-2295.
Crossref
 
Solener M, Tunali S, SafaOzcan A, Ozcan A, Gedikbey T (2008). Adsorption characteristics of lead(II) ions onto the clay/poly(methoxyethyl)acrylamide (PMEA) composite from aqueous solutions; Desalination. 223:308-322.
Crossref
 
Yu Y, Zhuang YY, Wang ZH (2001). Adsorption of water-soluble dye onto functionalized resin. J. Coll. Interf. Sci. 242:288.
Crossref
 
Yusan S, Gok C, Erenturk S, Aytas S (2012). Adsorptive removal of thorium (IV) using calcined and flux calcined diatomite fromTurkey: Evaluation of equilibrium, kinetic and thermodynamic data. Appl. Clay Sci. 67-68:106–116.
Crossref